Literature DB >> 30626743

Mucus strands from submucosal glands initiate mucociliary transport of large particles.

Anthony J Fischer1, Maria I Pino-Argumedo2, Brieanna M Hilkin2, Cullen R Shanrock1, Nicholas D Gansemer2, Anna L Chaly1, Keyan Zarei2,3, Patrick D Allen1, Lynda S Ostedgaard2, Eric A Hoffman3,4, David A Stoltz2,3,5, Michael J Welsh2,5,6, Mahmoud H Abou Alaiwa2,3.   

Abstract

Mucus produced by submucosal glands is a key component of respiratory mucociliary transport (MCT). When it emerges from submucosal gland ducts, mucus forms long strands on the airway surface. However, the function of those strands is uncertain. To test the hypothesis that mucus strands facilitate transport of large particles, we studied newborn pigs. In ex vivo experiments, interconnected mucus strands moved over the airway surface, attached to immobile spheres, and initiated their movement by pulling them. Stimulating submucosal gland secretion with methacholine increased the percentage of spheres that moved and shortened the delay until mucus strands began moving spheres. To disrupt mucus strands, we applied reducing agents tris-(2-carboxyethyl)phosphine and dithiothreitol. They decreased the fraction of moving spheres and delayed initiation of movement for spheres that did move. We obtained similar in vivo results with CT-based tracking of microdisks in spontaneously breathing pigs. Methacholine increased the percentage of microdisks moving and reduced the delay until they were propelled up airways. Aerosolized tris-(2-carboxyethyl)phosphine prevented those effects. Once particles started moving, reducing agents did not alter their speed either ex vivo or in vivo. These findings indicate that submucosal glands produce mucus in the form of strands and that the strands initiate movement of large particles, facilitating their removal from airways.

Entities:  

Keywords:  Innate immunity; Pulmonology; Respiration

Year:  2019        PMID: 30626743      PMCID: PMC6485365          DOI: 10.1172/jci.insight.124863

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


  57 in total

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Authors:  Mark J Hoegger; Anthony J Fischer; James D McMenimen; Lynda S Ostedgaard; Alex J Tucker; Maged A Awadalla; Thomas O Moninger; Andrew S Michalski; Eric A Hoffman; Joseph Zabner; David A Stoltz; Michael J Welsh
Journal:  Science       Date:  2014-08-15       Impact factor: 47.728

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  13 in total

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2.  Normal murine respiratory tract has its mucus concentrated in clouds based on the Muc5b mucin.

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Authors:  Ana M Jaramillo; Lucia Piccotti; Walter V Velasco; Anna Sofia Huerta Delgado; Zoulikha Azzegagh; Felicity Chung; Usman Nazeer; Junaid Farooq; Josh Brenner; Jan Parker-Thornburg; Brenton L Scott; Christopher M Evans; Roberto Adachi; Alan R Burns; Silvia M Kreda; Michael J Tuvim; Burton F Dickey
Journal:  JCI Insight       Date:  2019-03-21

6.  Disulfide disruption reverses mucus dysfunction in allergic airway disease.

Authors:  Leslie E Morgan; Ana M Jaramillo; Siddharth K Shenoy; Dorota Raclawska; Nkechinyere A Emezienna; Vanessa L Richardson; Naoko Hara; Anna Q Harder; James C NeeDell; Corinne E Hennessy; Hassan M El-Batal; Chelsea M Magin; Diane E Grove Villalon; Gregg Duncan; Justin S Hanes; Jung Soo Suk; David J Thornton; Fernando Holguin; William J Janssen; William R Thelin; Christopher M Evans
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9.  Lack of airway submucosal glands impairs respiratory host defenses.

Authors:  Lynda S Ostedgaard; Margaret P Price; Kristin M Whitworth; Mahmoud H Abou Alaiwa; Anthony J Fischer; Akshaya Warrier; Melissa Samuel; Lee D Spate; Patrick D Allen; Brieanna M Hilkin; Guillermo S Romano Ibarra; Miguel E Ortiz Bezara; Brian J Goodell; Steven E Mather; Linda S Powers; Mallory R Stroik; Nicholas D Gansemer; Camilla E Hippee; Keyan Zarei; J Adam Goeken; Thomas R Businga; Eric A Hoffman; David K Meyerholz; Randall S Prather; David A Stoltz; Michael J Welsh
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